9,474 research outputs found

    Millimetre Wave Power Measurement

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    There is currently no traceable power sensor for millimetre wave frequencies above 110 GHz. This thesis investigates a novel approach to remove this limitation by combining the placement of a uniquely designed microchip directly in waveguide. The design of the chip is novel in that it does not rely on a supporting structure or an external antenna when placed in the waveguide. The performance of the design was primarily analysed by computer simulation and verified with the measurement of a scale model. The results show that it is feasible to measure high frequency power by placing a chip directly in waveguide. It is predicted that the chip is able to absorb approximately 60% of incident power. Any further efficiency would require modification of the chip substrate. However, this proposed design should allow the standards institutes a reference that will enable the calibration of equipment to beyond 110 GHz

    Global opportunities for securing overseas retail deposits within the UK banking industry

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    The UK banking industry is very competitive and banks work hard to keep their existing customers and entice new customers to join their banks. This report will focus on a single global opportunity for a UK bank to secure deposits from overseas customers in order to facilitate its growth strategy. To protect the identity of the bank, it will be referred to as the UK Bank throught this report

    Executive Research Summary: The Dandelion Program

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    Dandelion_Program_Research_Exec_Summary_Feb2017.pdf: 98 downloads, before Oct. 1, 2020

    GLOBAL CHALLENGES: LOCAL ISSUES

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    International Development,

    Design study of a thermocouple power sensor as a monolithic fin-line

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    Making traceable power measurements above 110 GHz using current measurement technologies is challenging. We investigate a design of power sensor consisting of a thermocouple-based integrated circuit (IC) mounted as a finline component in WR-6 waveguide. The design is original in that it contains an antenna, terminating resistor and thermocouples on-chip. We detail the design and report results from simulations and measurements made on a two-port 16:1 scale model. Our design of scale model provides both insertion and reflection loss measurements. Electromagnetic simulation and easily-calibrated model measurements confirm that the short antenna fins feasible on a monolithic microwave integrated circuit (MMIC) can achieve acceptable specifications. The design proves to be relatively insensitive to the value of the terminating resistance or the size of the antenna fins

    Growing Pains: Getting past the complexities of scaling social impact

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    In communities across the UK, organisations develop new ideas to improve the lives of those around them. And yet despite growing demand for charity services, concerted attempts to take proven approaches to scale are few and far between, and successful examples are rarer still. This paper aims to bring about a change in tack by proposing a way of assessing the viability of scaling in different contexts

    Scaling of Electrode-Electrolyte Interface Model Parameters In Phosphate Buffered Saline

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    We report how the impedance presented by a platinum electrode scales with the concentration of phosphate buffered saline (PBS). We find that the constant phase element of the model scales with approximately the log of concentration, whereas the resistivity is inversely proportional. Using a novel DC measurement technique we show that the Faradaic response of a platinum electrode, and thus the safe exposure limit, does not scale with concentration below 900mV overpotential across a pair of electrodes. We compare objective measurements made in saline to those made in the spinal cavity of live sheep. We comment upon the appropriateness of using PBS as a substitute for living sheep

    The energy efficiency of 8-bit low-power microcontrollers

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    We have measured the energy cost of processing, sleeping, non-volatile memory writes and ADC measurements of six 8-bit microprocessors from three manufacturers. These measurements compare the chips directly to one another and reveal ideal operating points which can be used to reduce energy consumption
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